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coatings. The successful applicant will play a pivotal role in advancing our research project applying thin film coating technology to develop improved membranes and sorbents for water treatment. In
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U.S. Department of Energy (DOE) national laboratories. The project is dedicated to the accelerated discovery of catalytic materials for low-temperature PEM water electrolyzers, utilizing high-throughput
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at Argonne. In this role, the candidate will design, synthesize, and evaluate cutting-edge electrocatalysts for converting CO2 into valuable chemicals and enabling water splitting, and perform comprehensive
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combatting climate change and meeting society’s growing needs for water and energy resources. The Applied Materials Division focuses on bridging the gap between research and real-world applications. By
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of a high throughput membrane test system as part of the Great Lakes Water Innovation Engine . This position offers an exciting opportunity to advance membrane technology, with a focus on accelerating
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will specifically focus on the economic and financial impacts of experimental water flows and environmental regulations on hydropower plants. This description documents the general nature of work but is
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between power grid, transportation, water systems, and climate considerations. This position may require domestic and international travel. Implements power grid planning/operations algorithms and tools and
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developed catalysts into low-temperature fuel cells, water electrolyzers, and carbon dioxide electrolyzers and understanding the factors limiting their device-level performance and durability and developing
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Qualifications: Knowledge of conventional and next-generation energy and manufacturing technologies, and their environmental impacts including energy use, water use, and emissions. Experience developing software
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-generation electro-catalysts for CO2 conversion to value-added chemicals and for water splitting using chemical and physical synthesis techniques combined with half-cell electrochemical methods, such as